Hand tool device

The invention claimed is: 1. A handheld tool apparatus, comprising: an antenna including a plurality of inputs; a plurality of switches operatively connected to the plurality of inputs; a signal generator operatively connected to the plurality of switches, the signal generator being configured to generate an output signal, wherein the output signal is provided to at least one of the inputs to enable the antenna to transmit the output signal, wherein the antenna transmits the output signal including a component with a first polarization direction and another component with a second polarization direction simultaneously, the first polarization direction being orthogonal to the second polarization direction; a receiver operatively connected to the antenna via the plurality of switches, wherein the antenna receives a reflected signal from an elongated locatable object embedded within a medium in response to the transmitted output signal, the reflected signal including components corresponding to the first polarization direction and the second polarization direction; and a computation unit operatively connected to the plurality of switches, the signal generator, and the receiver, the computation unit being configured to: operate the plurality of switches to connect the signal generator to at least one input in the plurality of inputs in the antenna to transmit the output signal; operate the receiver and the plurality of switches to detect the reflected signal from the elongated locatable object in response to the transmitted signal using at least a first input and a second input in the plurality of inputs in the antenna; identify a first cross-polarization parameter and a first co-polarization parameter based on a component of the reflected signal with the first polarization direction; identify a second cross-polarization parameter and a second co-polarization parameter based on another component of the reflected signal with the second polarization direction; determine a piece of orientation information for the elongated locatable object based on the first cross-polarization parameter, the second cross-polarization parameter, the first co-polarization parameter, and the second co-polarization parameter; and generate an output indicating the orientation of the elongated locatable object based on the piece of orientation information. 2. The handheld tool apparatus as claimed in claim 1 , wherein the computation unit is configured to: determine a total cross-polarization parameter based on a complex valued sum of the first cross-polarization parameter and the second cross-polarization parameter; and determine the piece of orientation information for the elongated locatable object based on the total cross-polarization parameter. 3. The handheld tool apparatus as claimed in claim 2 , wherein the computation unit is configured to determine an angle-shifted total cross-polarization parameter based on the first co-polarization parameter and the second co-polarization parameter; and determine the piece of orientation information for the elongated locatable object based on the total cross-polarization parameter. 4. The handheld tool apparatus as claimed in claim 3 , wherein the computation unit is configured to determine the piece of orientation information from an absolute value of the total cross-polarization parameter and an absolute value of the angle-shifted total cross-polarization parameter. 5. The handheld tool apparatus as claimed in claim 4 , wherein the computation unit is configured to determine the piece of orientation information with an angle function that incorporates the total cross-polarization parameter and the angle-shifted total cross-polarization parameter. 6. The handheld tool apparatus as claimed in claim 1 , the computation unit being further configured to: receive a first plurality of reflected signals having a first polarity with the receiver connected to the first input of the antenna from the medium that contains the elongated locatable object in a region of the medium where none of the plurality of reflected signals are reflected from the elongated locatable object; receive a second plurality of reflected signals having a second polarity with the receiver connected to the second input of the antenna from the medium that contains the elongated locatable object in the region of the medium where none of the plurality of reflected signals are reflected from the elongated locatable object; identify a symmetry parameter as a mean value of the first plurality of reflected signals and the second plurality of reflected signals; and identify the orientation of the elongated locatable object in a first predetermined range of angles in response to an absolute value of a third co-polarization parameter corresponding to a difference between the first co-polarization parameter and the symmetry parameter being greater than an absolute value of a fourth co-polarization parameter corresponding to a difference between the second co-polarization parameter and the symmetry parameter; and identify the orientation of the elongated locatable object in a second predetermined range of angles in response to the absolute value of the third co-polarization parameter being less than the absolute value of the fourth co-polarization parameter. 7. The handheld tool apparatus as claimed in claim 1 , further comprising: a rotational motion sensor configured to generate a signal corresponding to rotational movement of the handheld tool apparatus; and the computation unit being operatively connected to the rotational motion sensor and further configured to: identify a first rotational position for the handheld tool apparatus during the reception of the reflected signal, wherein the first co-polarization parameter, the first cross-polarization parameter, the second co-polarization parameter, and the second cross-polarization parameter are identified when the handheld tool apparatus is in the first rotational position; identify a rotation to a 90° or −90° angle for the handheld tool apparatus in a second rotational position in a plane parallel to the elongated locatable object using the rotational motion sensor; receive the reflected signal while the handheld tool apparatus is in the second rotational position; identify a third co-polarization parameter and a third cross-polarization parameter in the reflected signal when the handheld tool apparatus is in the second rotational position, and a fourth co-polarization parameter and a fourth cross-polarization parameter in the reflected signal when the handheld tool apparatus is in the second rotational position; identify the orientation of the elongated locatable object as being along the 90° or −90° angle in response to the first cross-polarization parameter matching the third cross-polarization parameter, the second cross-polarization parameter matching the fourth cross-polarization parameter, the first co-polarization parameter matching the third co-polarization parameter, and the second co-polarization parameter matching the fourth co-polarization parameter.